CN2454745Y

CN2454745Y - Condenser radiating device

Info

Publication number: CN2454745Y
Application number: CN 00260682
Authority: CN
Inventors: 詹益秋
Original assignee: Individual
Current assignee: Individual
Priority date: 2000-11-29
Filing date: 2000-11-29
Publication date: 2001-10-17
Anticipated expiration: 2010-11-29

Abstract

The utility model relates to a condenser radiating device. A body comprises radiating fins which are longitudinally arranged and a condenser tube which is transversely penetrated. Heat radiation areas are reserved at the lower sections of the radiating fins. The gaps of the radiating fins of the heat radiation areas are used for doing auxiliary heat radiation. A water carrying tank is fixedly connected with the bottom of the body. One end of the water carrying tank is penetrated through a power source, and then water is pumped to flow into a pumping tube. Thus, a first cooling area is arranged. The water pumping tube is threaded out, and then is communicated with a water dripping tank on the upper side, and a plurality of layers of intermediate water discs of water holes which are mutually staggered are respectively arranged in the water dripping tank. Thus, a second cooling area is arranged. Thus, water supplied by the water dripping tank flows at the outside of the condensing tube to cool and radiate, so the service efficiency of a condensator is improved.

Description

The heat abstractor of condenser

The utility model relates to a kind of heat abstractor of condenser.

General being seen condenser is as shown in Figure 5, set firmly most sheets fin 52 longitudinally in one body 50, body 50 laterally wears most roots by the outside and is the circuitous condenser pipe 51 of level, condenser pipe 51 laterally runs through fin 52, and condenser is provided with the fan (not shown in the figures) of heat transmission in body 50 back sides.Condensing agent in the condenser pipe 51 of condenser absorbs the heat from compressor, copper material heat conduction via condenser pipe 51, with heat transferred fin 52, the heat of fin 52 is outwards dispersed by fan again, reaching the effect of heat radiation, and the condensing agents in the condenser pipe 51 are also lowered the temperature through this heat transfer process.Yet aforementioned being seen condenser is unsatisfactory at radiating effect.Drive the heat drop temperature because depend merely on fan, radiating effect is limited, and radiating rate is slow, especially in summer, environment temperature is higher, and it is higher that fan drives the gas flow temperature that circulates, therefore the mat fan can't dispel the heat effectively, make that the condensing agent cooling-down effect in the condenser pipe 51 is not good, reduce the service efficiency and the reduction of service life of condenser, expend considerable electric energy especially.

The purpose of this utility model provides a kind of heat abstractor of condenser, can strengthen the thermolysis of condenser, increases service life, improves operation efficiency.

In order to achieve the above object, the utility model provides a kind of heat abstractor of condenser, and the body of its condenser includes the condenser pipe that is arranged in fin longitudinally and laterally installs, it is characterized in that: the fin hypomere is installed with a radiating area, this radiating area is not establish condenser pipe, and

One is fixed in the water tank that holds of body bottom surface, the opening that holds water tank is towards each fin bottom, hold the at one end external water inlet pipe of water tank, and to hold water tank be to connect a power source that water is extracted out at the other end of correspondence tipping water inlet pipe, and power source is to be communicated with the level detection switch, and power source is to be connected in the drinking-water pipe, this drinking-water pipe other end is to extend towards the body top, and laterally run through the body upside fin and outside being piercing in, and

A water case, the case that drips wears most osculums on the chassis of bottom surface, the case that drips keeps one apart from part at madial wall and chassis, be installed with water pond in one first, water pond is provided with the water hole in first, it is to stagger osculum in the case that drips that its water hole distributes, and the case that drips is in backing down actinal surface capping one lid, and case one end that drips is for the external connection of drinking-water pipe.

The heat abstractor of described condenser is characterized in that: this drinking-water pipe is to run through body along S-shaped the making a circulation repeatedly of horizontal plane, and the end that its end passes is to be communicated in the case that drips, and the position is on the middle water pond of case top side that drips.

The heat abstractor of described condenser is characterized in that: water pond upside a distance in this case that drips inboard relative first, can be fixed with water pond in one second, this in second the water hole of water pond be with first in the water hole of water pond stagger mutually.

The heat abstractor of described condenser is characterized in that: this holds the level detection switch that a detection liquid level can be installed in the water tank.

The heat abstractor of described condenser is characterized in that: this holds in the water tank can be provided with a water temperature regulater.

The heat abstractor of described condenser is characterized in that: this holds water tank and can be communicated with power source by an adapter.

The utility model compared with the prior art advantage and good effect is very obvious.By above technical scheme as can be known, heat abstractor of the present utility model has following advantage:

1. utilize water-cooled circulation cooling, to supply the deficiency of radiator fan, strengthen the thermolysis of condenser, increase service life, operational paradigm is better.

2. has multiple cooling heat dissipation effectiveness.Second cooling zone that wherein cooperates the water hole design of staggering each other layer by layer of the case that drips, water-outlet area is increased, and can spread maturely in condenser pipe and all sides of fin, and can postpone current and spread time cooperation and air heat exchange and dispel the heat, the effect of rapid heat dissipation is provided, cooperate the water that flows through by the case that drips to spread drinking-water pipe week side again in addition again, make transmit moisture content drinking-water pipe in first cooling zone except lowering the temperature with the fin heat exchange, also can increase another cooling effect, the radiating area that cooperates fin specially to be provided with again at downside, allow hydronic water temperature can not accumulate intensification, guarantee the stability of cooling heat dissipation effect because of the heat of absorption condensation pipe.

3. simple in structure, be easy to additional existing condenser, make the radiating effect of condenser be easy to general implementation.

Further specify specific structural features of the present utility model and purpose below in conjunction with accompanying drawing.

Brief Description Of Drawings:

Fig. 1 is a stereo appearance figure of the present utility model.

Fig. 2 is a whole main plan view of the present utility model.

Fig. 3 is the case element exploded perspective view that drips of the present utility model.

Fig. 4 is the case planar configuration vertical view that drips of the present utility model.

Fig. 5 is the stereo appearance figure of traditional structure.

The utility model is a kind of heat abstractor of condenser, please referring to Fig. 1 to 3, the body 10 of condenser includes the condenser pipe 11 that is arranged in fin 13 longitudinally and laterally installs, be to stay to establish a radiating area 14 wherein in fin 13 hypomeres, this radiating area 14 is the condenser pipes 11 that do not distribute, and the effect of an auxiliary heat dissipation is provided in order to fin 13 gaps of this radiating area 14;

One be fixed in body 10 bottom surfaces hold water tank 20, this opening that holds water tank 20 is towards each fin 13 bottom, hold the at one end external water inlet pipe 21 of water tank 20 in order to water inlet, hold water tank 20 in the interior level detection switch 22 that a detection liquid level is installed, such as being float switch, and establish the water temperature regulater 221 that a sensing holds water temperatures in the water tank 20, and to hold water tank 20 be to connect to establish one and take over 241 at the other end of correspondence tipping water inlet pipe 21, this adapter 241 end in addition is to be hinged with a power source 23 with the water extraction, power source 23 is such as being pump, power source 23 on electronic loop is and level detection switch 22, water temperature regulater 221 is connected, whether to control power source 23 cut-off loops according to imposing a condition of liquid level by level detection switch 22, power source 23 is that the water that will extract out is extracted in the drinking-water pipe 24, these drinking-water pipe 24 other ends are to extend towards body 10 tops, and laterally run through body 10 upsides fin 13 and outside being piercing in, especially drinking-water pipe 24 is as shown in Figure 1, be along horizontal plane according to body 10 lateral width S-shaped circuitous fin 13 forms that run through repeatedly, drinking-water pipe 24 ends pick out body 10 again, the area that makes drinking-water pipe 24 enter fin 13 effectively increases, and the position that this drinking-water pipe 24 runs through body 10 promptly is made as first cooling zone 141;

A water case 30, as Fig. 1, shown in 3, the case 30 that drips wears most osculums 32 regularly on the chassis 31 of bottom surface, the case 30 that drips keeps one apart from part at madial wall and chassis 31, set firmly or be embedded with water pond 34 in one first, water pond 34 is provided with water hole 341 in first, it is to stagger osculum 32 in the case 30 that drips that its water hole 341 distributes, certainly, also can be again in the case 30 inboard relative first that drips water pond 34 upsides one distance, weld or be embedded with water pond 35 in one second again, this in second the water hole 351 of water pond 35 be with first in the water hole 341 of water pond 34 stagger, corresponding with the water hole 32 on chassis 31, the case 30 that drips is at last in backing down actinal surface capping one lid 36, and case 30 1 sides of dripping are for drinking-water pipe 24 terminal external connections, and corresponding to the top of water pond 35 in second, spread by the case 30 that drips with the water that guiding is extracted out, the distribution design in each layer water hole is and establishes second cooling zone 142 in the case 30 that drips, and therefore forms the heat abstractor shown in Fig. 1 outward appearance.

Implementation process of the present utility model below promptly is described, wherein by water inlet pipe 21 water inlets, hold in the water tank 20 to be contained in, when level detection switch 22 detects liquid level and is ordinary water level, promptly power source 23 is transmitted a signal to drive power source 23, the water that holds in the water tank 20 with order is extracted in the drinking-water pipe 24 through taking over 241, the water of drinking-water pipe 24 is stamped, drinking-water pipe 24 is spread when this runs through first cooling zone 141 of fin 13, the water of drinking-water pipe 24 and fin 13 carry out heat exchange (also cooperate fan to rotate and disperse heat), secondly, water in the drinking-water pipe 24 enters in the case 30 that drips, cooperate Fig. 2 this moment again, 4, water enter by case 30 upsides that drip and in second the water hole 351 of water pond 35 flow into, the water hole 341 of water pond 34 in first again, water hole 32 streams on chassis 31 are hidden in the position of body 10 through drinking-water pipe 24, because each layer water hole 351,341,32 stagger mutually, can guide current to have a plurality of directions to spread on the one hand, increase the effect of area of dispersion, make the condenser pipe 11 of each position all can suffer its cooling effect, current see through each water hole 351 on the other hand, 341, second cooling zone 142 of 32 staggered positions, postponed the speed that current flow down, make in this time delay, the mutual heat exchange of air in the current and the case 30 that drips, and has cool effect once more, therefore work as water and longitudinally spread condenser pipe 11 all sides, the water temperature that has reduced just can provide condenser pipe 11 and fin 13 that a cooling effect is rapidly immediately arranged, the heat of condenser pipe 11 is taken away in absorption, the water that absorbs heat afterwards along condenser pipe 11 all sides and fin 13 gap adfluxions to holding in the water tank 20, the fin 13 gap radiate heat and ventilate that cooperate radiating area 14, the water of spreading circulation is given cooling again, make to enter and hold water tank 20 water temperature reduction before, preliminary radiating effect is just arranged.

Can reduce to some extent because of water evaporates and hold water tank 20,, see through level detection switch 22 and detect when liquid level water level arrives lower-limit point, promptly can start the action of water inlet, and transmitting signals makes water be entered by water inlet pipe 21 and holds in the water tank 20 to allow power source 23 stop pumping, and supplies ordinary water level; In addition, on the whole aforementioned continuous heat radiation circulation process can be surveyed the water temperature of holding water tank 20 up to water temperature regulater 221 and drop to design temperature, and the expression condenser has met the requirements of the cooling degree, and water temperature regulater 221 promptly cuts off the action of drawing water of power source 23.

In the heat dissipation design of the present utility model, moisture content is spread condenser pipe 11 and fin 13 layer by layer by the case 30 that drips, also taken away the heat of condenser pipe 11, make that to flow into the water temperature hold water tank 20 high slightly, design of the present utility model is very ingenious, it utilizes first cooling zone 141 earlier and carries out heat exchange with drinking-water pipe 24, and work as water by drinking-water pipe 24, the case 30 that drips is spread when condenser pipe 11 all sides, also cool off first cooling zone 141 of drinking-water pipe 24 simultaneously, make the water for cooling in the drinking-water pipe 24, cooperate second cooling zone 142 to postpone the time that current are spread again, can lower the temperature again, guarantee to spread in condenser pipe 11 with air heat exchange, the water temperature of fin 13 can not accumulated intensification; Add and hold water tank 20, look liquid level or ambient temperature drives water inlet, reduce holding the water temperature that absorbs heat in the water tank 20, cooperate the gap allowing air flow of 13 of the fin of radiating area 14, ventilative auxiliary heat dissipation again, before the water of reciprocal use circulation being entered hold water tank 20 the preliminary effect of a cooling heat dissipation is arranged just, allow and hold water temperatures in the water tank 20 and gradually fall progressively lowly, heat dispersion is preferable.

Claims

1. the heat abstractor of a condenser, the body of its condenser include the condenser pipe that is arranged in fin longitudinally and laterally installs, and it is characterized in that: the fin hypomere is installed with a radiating area, and this radiating area is not establish condenser pipe, and,

2. the heat abstractor of condenser as claimed in claim 1 is characterized in that: this drinking-water pipe is to run through body along S-shaped circuitous repeatedly of horizontal plane, and the end that its end passes is to be communicated in the case that drips, and the position is on the middle water pond of case top side that drips.

3. the heat abstractor of condenser as claimed in claim 1 or 2, it is characterized in that: water pond upside a distance in this case inboard relative first that drips, be fixed with water pond in one second, this in second the water hole of water pond be with first in the water hole of water pond stagger mutually.

4. the heat abstractor of condenser as claimed in claim 3 is characterized in that: this holds a level detection switch that detects liquid level is installed in the water tank.

5. the heat abstractor of condenser as claimed in claim 4, it is characterized in that: this holds and is provided with a water temperature regulater in the water tank.

6. the heat abstractor of condenser as claimed in claim 5 is characterized in that: this holds water tank and takes over by one and be communicated with power source.